Extrusion foaming of polystyrene/carbon particles using carbon dioxide and water as co-blowing agents

Abstract

Carbon particles such as platelet-like graphite (GR), spherically shaped activated carbon (AC), and tubular carbon nanofiber (CNF) were used as additives in extruded polystyrene (PS) foams with carbon dioxide (CO2) and water as co-blowing agents. It was found that GR is the best additive for improving the thermal insulation performance of CO2 based foam samples because of GR's good absorption and reflectivity of infrared (IR) radiation. However, when the GR concentration was higher than 0.5 wt.%, the extruded foams exhibited large bubbles in the center of the foam and the extrusion line became unstable. By adding water carried by AC as a co-blowing agent, it was able to decrease the temperature in the center of the extruded foam, which successfully eliminated the bubble problem and achieved stable foam extrusion with good control of the foam density and cell morphology. Moreover, water carried by AC could also improve the mechanical performance of extruded foams containing CNF or GR. Water was not found in the extruded foams and the presence of water during extrusion did not affect the molecular weight and glass transition temperature of PS. Our results showed that a combination of AC as a water carrier and GR as an absorber and reflector of IR radiation can produce CO2 based PS foams with good thermal insulation and mechanical properties, particularly with the presence of a small amount of CNF nanoparticles. © 2011 Elsevier Ltd. All rights reserved.